Polarized behaviour of lead anode with 0,8 % silver in synthetic solution for electrollytic zinc precipitation in presence of depolarized substances

Polarized behaviour of lead anode with 0,8 % silver in synthetic solution for electrollytic zinc precipitation in presence of depolarized substances

At density current of 400A/m2, average voltage of electrolytic cell in zinc industrial production is approx. 3,7V, making anode potential approx. 2,0V. In the process of electrolysis, almost 80% of electric energy is spent, so there is a great economic interest to reduce specific electric energy con...

Full description

Saved in:
Bibliographic Details
Main Authors: Miroslav Jokić, Nikolić Mirjana Antonijević
Format: Article
Language:English
Published: Engineering Society for Corrosion, Belgrade, Serbia 2017-03-01
Series:Zaštita Materijala
Subjects:
zinc electrolysis
anode potential
methanol
formic acid
chlorides
Online Access:https://www.zastita-materijala.org/index.php/home/article/view/591
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:At density current of 400A/m2, average voltage of electrolytic cell in zinc industrial production is approx. 3,7V, making anode potential approx. 2,0V. In the process of electrolysis, almost 80% of electric energy is spent, so there is a great economic interest to reduce specific electric energy consumption per zinc mass unit. The solution of this problem can be found in reducing anode potential (depolarization) by adding, in electrolyte, the substances that oxidize at potentials lower than the one of water oxidation. This paper examined the behaviour of anode potential by adding 1, 3, 5 and 8% (vol) methanol, i.e. 1, 3 and 5% (vol) formic acid in synthetic industrial electrolyte with 150g/dm3 H2SO4, as well as the influence of chloride presence in electrolyte on anode polarization effects. Lead anode alloyed with 0,8% silver was used, being a standard for zinc industrial production. Corrosion behavior of such an anode was examined in presence of methanol in synthetic industrial electrolyte with 150g/dm3 sulphuric acid. The results show that in the field of industrial relevant density current, depolarization effect while adding methanol exists, that the presence of methanol doesn't affect adversely on corrosion stability of anode, but the acceptable content of chloride in electrolyte cancels the effects of depolarization in the presence of methanol. The presence of formic acid in synthetic electrolyte doesn't show clear and uniform depolarization effects.
ISSN:0351-9465
2466-2585

Similar Items